EC:3.6.1.3 - FACTA Search

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasma membrane from fusing embryonic muscle cells were assayed for phospholipase A activity to determine if this enzyme plays a role in cell fusion. The membranes were assayed under a variety of conditions with phosphatidylcholine as the substrate and no phospholipase A activity was found. The plasma membranes did contain a phosphatidic acid phosphatase which was optimally active in the presence of Triton X-100 and glycerol. The enzyme activity was constant from pH 5.2 to 7.0, and did not require divalent cations. Over 97% of the phosphatidic acid phosphatase activity was in the particulate fraction. The subcellular distribution of the phosphatidic acid phosphatase was the same as the distributions of the plasma membrane markers, (Na+ + k+)-ATPase and the acetylcholine receptor, which indicates that this phosphatase is located exclusively in the plasma membranes. There was no detectable difference in the phosphatidic acid phosphatase activities of plasma membranes from fusing and non-fusing cells.
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PMID:Phosphatidic acid phosphatase and phospholipdase A activities in plasma membranes from fusing muscle cells. 0 66

The phospholipid and fatty acid composition and role of phospholipids in enzyme and transport function of gastric (H+ + K+)-ATPase vesicles was studied using phospholipase A2 (bee venom). The composition (%) was phosphatidyl-choline (PC) 33%; sphingomyelin (sph) 25%; phosphatidylethanolamine (PE) 22%; phosphatidylserine (PS) 11%; and phosphatidylinositol (PI) 8%. The fatty acid composition showed a high degree of unsaturation. In both fresh and lyophilized preparations, even with prolonged incubation, only 50% of phospholipids were hydrolyzed, but the amount of PE and PS disappearing was increased following lyophilization. There was a marked decrease in K+-ATPase activity (75%) but essentially no loss of the associated K+ p-nitrophenyl phosphatase was found. ATPase activity could be largely restored by various phospholipids (PE greater than PC greater than PS). There was also an increase in Mg2+-ATPase activity, partially reversed in fresh preparations by the addition of phospholipids (PE greater than PS greater than PC). Proton transport activity of the preparation was rapidly inhibited, initially due to a large increase in the HCl permeability of the preparation. Associated with these enzymatic and functional changes, the ATP-induced conformational changes, as indicated by circular dichroism spectra were inhibited.
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PMID:Effect of phospholipase A2 on purified gastric vesicles. 4 34

Active transport of proline remained unaffected in phospholipase A-treated electron transport particles from Mycobacterium phlei. However, the steady state level of proline was reduced 50 to 60% in phospholipase A-treated depleted electron transport particles that were devoid of membrane-bound coupling factor-latent ATPase activity. The decrease in the uptake of proline in the phospholipase A-treated depleted electron transport particles was not due to a change in the apparent K-m for proline, but it was related to the amount of phospholipid cleaved from the membranes. Restoration in the level of proline transport in phospholipase A-treated depleted electron transport particles was achieved by reconstituting these vesicles with diphosphatidylglycerol and phosphatidylethanolamine liposomes. Diphosphatidylglycerol was found to be most effective in the restoration of proline uptake. In contrast to the effect of phospholipase A treatment on proline transport, similar treatement of the electron transport particles or depleted electron transport particles failed to inhibit the active transport of either glutamine or glutamic acid. Studies with phospholipase A-treated membrane vesicles confirmed earlier findings that a proton gradient is not required for active transport of amino acids.
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PMID:Effect of phospholipase A on active transport of amino acids with membrane vesicles of Mycobacterium phlei. 12 19

A simple preparative method is described for isolation of the cytoplasmic and outer membranes from E. coli. The characteristics of both membrane fractions were studied chemically, biologically, and morphologically. Spheroplasts of E. coli K-12 strain W3092, prepared by treating cells with EDTA-lysozyme [EC 3.2.1.17], were disrupted in a French press. The crude membrane fraction was washed with 3 mM EDTA-10% (w/v) sucrose, pH 7.2, and the cytoplasmic membranes and outer membranes were separated by sucrose isopycnic density gradient centrifugation. The crude membrane fraction contained approximately 10% of the protein of the whole cells, 0.3% of the DNA, 0.7% of the RNA, 0.3% of the peptidoglycan, and about 30% of the lipopolysaccharide. The cytoplasmic membrane fraction was rich in phospholipid, while the outer membrane fraction contained much lipopolysaccharide and carbohydrate; the relative contents of lipopolysaccharide and carbohydrate per mg protein in the cytoplasmic membrane fraction were 12 and 40%, respectively, of the contents in the outer membrane fraction. Cytochrome b1, NADH oxidase, D-lactate dehydrogenase [EC 1.1.1.28], succinate dehydrogenase [EC 1.3.99.1], ATPase [EC 3.5.1.3], and activity for concentrative uptake of proline were found to be localized mainly in the cytoplasmic membranes; their specific activities in the outer membrane fraction were 1.5 to 3% of those in the cytoplasmic membrane fraction. In contrast, a phospholipase A appeared to be localized mainly in the outer membranes and its specific activity in the cytoplasmic membrane fraction was only 5% of that in the outer membrane fraction. The cytoplasmic and outer membrane fractions both appeared homogeneous in size and shape and show vesicular structures by electron microscopy. The advantages of this method for large scale preparation of the cytoplasmic and outer membrane fractions are discussed.
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PMID:Cytoplasmic membrane vesicles of Escherichia coli. A simple method for preparing the cytoplasmic and outer membranes. 12 74

The Km value for the dog heart (Na+-K+)-ATPase was 0.31 mM (MgATP), whereas the values for the concentrations of K+ and Na+ varied from 1.2 to 2.7 mM and 12 to 20 mM for half-maximal activation, respectively. The concentrations of ouabain and calcium for 50 percent inhibition of (Na+-K+)-ATPase activity varied from 2.4 to 3.2 muM and 0.5 to 1.2 mM, respectively, the inhibitory effects of these agents were pH dependent. This preparation bound about 50 nmoles of 1-anilino-8-napthaline sulfonate (ANS)/mg of protein and exhibited fluorescence attributable to the ANS-enzyme complex. Cations such as Na+,K+,Ca++, and Mg++ increased ANS-enzyme fluorescence intensity and the number of ANS binding sites but decreased the apparent ANS binding constant. The enzyme activity, ANS binding, and ANS-enzyme fluorescence were decreased by phospholipase A, phospholipase C, and trypsin treatments. Although ouabain inhibited enzyme activity and ANS-enzyme fluorescence markedly, it caused only a slight depression in ANS binding. These results extend support for the allosteric nature of the cardiac (Na+-K+)-ATPase and provide evidence for conformational changes during its activation by Na+ and K+.
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PMID:Characterization of partially purified heart sarcolemmal Na+-K+-stimulated ATPase. 13 Jun 58

Two colicins that affect energy metabolism in Escherichia coli (colicins K and E1) are shown to cause loss of specific membrane proteins from treated cells. Disappearance of these proteins after treatment with colicin K occurs at low multiplicities and is independent of ATPase (EC 3.6.1.4) and phospholipase A (EC 3.1.1.4) activities. The uncouplers carbonyl cyanide m-chlorophenylhydrazone and dinitrophenol do not alter the pattern of membrane proteins.
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PMID:Disappearance of specific proteins from the membranes of colicin-treated cells. 13 39

1. When complete hydrolysis of glycerophosphlipids and sphingomyelin in the outer membrane leaflet is brought about by treatment of intact red blood cells with phospholipase A2 and sphingomyelinase C, the (Ca2+ + Mg2+)-ATPase activity is not affected. 2. Complete hydrolysis of sphingomyelin, by treatment of leaky ghosts with spingomyelinase C, does not lead to an inactivation of the (Ca2+ + Mg2+)-ATPase. 3. Treatment of ghosts with phospholipase A2 (from either procine pancreas of Naja naja venom), under conditions causing an essentially complete hydrolysis of the total glycerophospholipid fraction of the membrane, results in inactivation of the (Ca2+ + Mg2+)-ATPase by some 80--85%. The residual activity is lost when the produced lyso-compounds (and fatty acids) are removed by subsequent treatment of the ghosts with bovine serum albumin. 4. The degree of inactivation of the (Ca2+ + Mg2+)-ATPase, caused by treatment of ghosts with phospholipase C, is directly proportional to the percentage by which the glycerophospholipid fraction in the inner membrane layer is degraded. 5. After essentially complete inactivation of the (Ca2+ + Mg2+)-ATPase by treatment of ghosts with phospholipase C from Bacillus cereus, the enzyme is reactivated by the addition of any of the glycerophospholipids, phosphatidylserine, phosphatidylcholine, phosphatidylethanolamine or lysophosphatidylcholine, but not by addition of sphingomyeline, free fatty acids or the detergent Triton X-100. 6. It is concluded that only the glycerophospholipids in the human erythrocyte membrane are involved in the maintenance of the (Ca2+ + Mg2+)-ATPase activity, and in particular that fraction of these phospholipids located in the inner half of the membrane.
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PMID:The lipid requirement of the (Ca2+ + Mg2+)-ATPase in the human erythrocyte membrane, as studied by various highly purified phospholipases. 13 46

1. The rate of binding of [3H]ouabain to untreated membrane preparations of [Na+ +K+]-ATPase is a timperature--dependent process displaying a thermal transition close to 25degreesC. The apparent energies of activation which can be calculated above and below this transition are similar to, but not identical with, those previously reported for activation of the enzyme by cations. 2. Treatment of the enzyme preparation with detergents or lipolysis with phospholipase A eliminates the thermal transition resulting in linear Arrhenius plots. 3. The number of sites available for [3H]ouabain binding is not temperature dependent as the amount of [3H]ouabain bound at equillbrium is not changed between 10 and 37 degrees C. 4. Treatment of the enzyme with phospholipase A results in time-dependent changes in the number of binding sites for [3H]ouabain at equilibrium. 5. Treatment of the membrane enzyme preparations with detergents reveals additional [3H]ouabain binding sites which are extremely sensitive to lipolysis with phospholipase A. 6. There are a number of [3H]ouabain binding sites which remain resistant to lipolysis by phospholipase A in either untreated or detergent-treated membrane preparations. 7. It is suggested that [3H]ouabain binding sites exist in the membrane in at least two different environments, one of which is resistant the other sensitive to attack by phopholipase A.
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PMID:Variation in sensitivity of the cardiac glycoside receptor characteristics of (Na+ + K+)-ATPase to lipolysis and temperature. 13 43

Treatment of red cell membranes with pure phospholipase C inactivates (Na+ + K+)-ATPase activity and Na+-dependent phosphorylation but increases K+-dependent phosphatase activity. When phospholipase A2 replaces phospholipase C, all activities are lost. Activation of K+-dependent phosphatase by treatment with phospholipase C is caused by an increase in the maximum rate of hydrolysis of p-nitrophenylphosphate and in the maximum activating effect of K+, the apparent affinities for substrate and cofactors being little affected. After phospholipase C treatment K+-dependent phosphatase is no longer sensitive to ouabain but becomes more sensitive to N-ethylmaleimide. In treated membranes Na+ partially replaces K+ as an activator of the phosphatase. Although ATP still inhibits phosphatase activity, neither ATP, nor ATP+Na+ are able to modify the apparent affinity for K+ of K+-dependent phosphatase in these membranes.
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PMID:ATPase and phosphatase activities from human red cell membranes. III. Stimulation of K+-activated phosphatase by phospholipase C. 14 59

Treatment of sarcoplasmic reticulum vesicles with aqueous n-alcohols caused inhibition of calcium uptake and enhancement of ATPase activity. With increasing alcohol concentration, the ATPase activity reached a maximum (in the case of n-butanol, at about 350 mM) and then decreased. The effect of n-butanol was extensively studied. The purified ATPase enzyme and leaky vesicles treated with Triton X-100 or phospholipase A showed high ATPase activity in the absence of n-butanol. With increasing n-butanol concentration, their atpase activities began to decrease above about 250 mM n-butanol, without any enhancement. In the presence of ATP, the turnover rate of calcium after calcium accumulation had reached a steady level was the same as that at the initial uptake. n-Butanol did not affect these rates. Kinetic analyses of these experiments were carried out. The mechanisms of calcium transport and of increase of ATPase activity in the presence of alcohol were interpreted as follows. After calcium accumulation had reached a steady level, fast influx and efflux continued; the influx was coupled with phosphorylated enzyme (E-P) formation and most of the efflux was coupled with rephosphorylation of ATP from ADP and E-P. The observed ATPase activity is the difference between these two reactions. If alcohol molecules make the vesicles leaky, calcium ions will flow out without ATP synthesis and the apparent ATPase activity will increase. The effect of alcohols on sarcoplasmic reticulum vesicles was separated into two actions. The enhancement of ATPase activity was attributed to a leakage of calcium ions from the vesicles, while the decrease of ATPase activity at higher concentrations of alcohols was attributed to denaturation of the ATPase enzyme itself. The two effects were interpreted in terms of equilibrium binding of alcohol molecules to two different sites of the vesicles; leakage and denaturation sites. Similar analysis was carried out for various n-alcohols from methanol to n-heptanol. The apparent free energies of binding of the methylene groups of n-alcohols were evaluated to be -863 cal/mol for the leakage site, and -732 cal/mol for the denaturation site.
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PMID:The mechanism of increase in the ATPase activity of sarcoplasmic reticulum vesicles treated with n-alcohols. 14 24

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